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ANALYSIS: AI – another important tool in improving energy supply reliability

June 7, 2024 6:14 am by: Category: Featured, ICT Guest, OPINION & ANALYSIS, Technology Leave a comment A+ / A-

by DWIBIN THOMAS
JOHANNESBURG – MANY grids across the globe have one, persistent problem in common, aging infrastructure.

In the US alone, the average installed base is 40 years old with a quarter of the country’s grid 50 years or older.  In South Africa the scenario is similar with the average plant estimated to be 40 years or older.

The above has made a consistent case for the modernisation of grid infrastructure, a subject matter that will probably take up an entire section in a bookstore or library. Fortunately, there are some almost-immediate steps that can provide quick wins without having to undertake forklift-scale projects.

One such intervention is Artificial Intelligence (AI) which has the ability to enhance predictive maintenance by analysing data from a myriad of systems and equipment, identifying potential failures before it occurs. By predicting equipment failures, AI enables energy providers to schedule timely maintenance, reducing the risk of unexpected outages and costly downtime.

Furthermore, AI offers continuous, real-time monitoring, therefore, detecting anomalies and establishing early warning systems. By predicting these potential failures, AI-driven systems provide optimised and intuitive maintenance schedules, leading to improved reliability and more reliable energy supply.

The role of SCADA and historian systems
SCADA (supervisory control and data acquisition) systems collect and store real-time data from energy systems.  When this data feeds into AI algorithms, it can provide predictive maintenance and subsequent recommendations.

In the case of historian systems, these store historical data, capture long-term trends and performance metrics.  Again, AI algorithms use this historical data to make predictions and recommend maintenance actions.

Therefore, the combination of real-time SCADA and historical data provide AI algorithms with invaluable information, allowing for analysis and subsequent predictive maintenance.  This optimises maintenance schedules and prevents equipment failures, enhancing overall energy network performance.

AI in energy management offers the following important benefits:

Modernised networks
In more modern electrical networks, AI technologies are transforming fault location, isolation, and restoration (FLISR) processes. Through advanced data analytics and machine learning (ML), AI algorithms can analyse extensive datasets to detect anomalies indicative of faults and classify them accurately.

These insights enable decision support systems to provide real-time recommendations to operators, facilitating optimal fault isolation and restoration strategies. Moreover, AI-driven optimisation algorithms enable the reconfiguration of the network to minimise outage duration and restore power efficiently.

Integration with SCADA and Distribution Management Systems (DMS) further enhances FLISR capabilities, allowing utilities to improve reliability and operational efficiency while reducing downtime.

Whilst the role of AI in energy lies heavily in utilities, there’s also a bigger picture.  Energy networks are essential for productivity, be it manufacturing plants or on energy-intensive segments such as mining, minerals and metals. AI-driven maintenance ensures uninterrupted operations, supporting both business and economic growth.

NB: Dwibin Thomas is Cluster Automation Leader at Schneider Electric

– CAJ News

ANALYSIS: AI – another important tool in improving energy supply reliability Reviewed by on . by DWIBIN THOMASJOHANNESBURG - MANY grids across the globe have one, persistent problem in common, aging infrastructure. Dwibin Thomas is Cluster Automation Lea by DWIBIN THOMASJOHANNESBURG - MANY grids across the globe have one, persistent problem in common, aging infrastructure. Dwibin Thomas is Cluster Automation Lea Rating: 0
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